EP0971213A2 - Microwave content level measurement apparatus with improved signal quality - Google Patents

Abstract

A contact-free level detector, which determines the level of a substance in a vessel by the duration of microwave signals reflected from the surface, transmits and reflects the signals through an antenna (16). The antenna system (10) incorporates a conducting mantle (11) surrounding a ceramic conductor tube (12) connected to the base (14) of a conical tapered adaptor (13). The base of the taper, on the antenna axis, is within the funnel (15) of the conducting mantle, so that the mantle has a greater inside circumference than the taper base. The shape of the taper in relation to the mantle reduces the risk of unwanted reflections to the receiver. This ensures a reduction in noise and improved signal quality.

Description

The invention is in the field of non-contact measurement of material levels in containers using the microwave measurement technique and concerns in particular a microwave level measuring device in the preamble of the independent Protection claim defined type, which has an improved signal quality, in particular made possible by reduced "ringing" or noise.

There are a variety of different measuring principles, and based on them Measuring devices to measure the level of filling goods in containers. Microwave level gauges on the basis of a freely emitted and, after reflection from the The surface of the product to be filled and the microwave signal received again have been brought about the non-contact measuring technology suitable for practically all filling goods proven particularly advantageous.

In this measuring technique, the microwave signal is emitted via an antenna and the microwave signal reflected by the product surface is then reflected by the Antenna received. From a measurement of the transit time of the microwave signal, the Filling height in the container determined.

The antenna for transmitting and receiving the microwave signal of such a State of the art measuring device is used for the transmission process by a Antenna supply supplied with the microwave signals. The antenna feed includes usually a partially filled waveguide, which is surrounded by a cylindrical waveguide jacket is formed in the area facing away from the antenna becomes. The waveguide jacket usually widens, usually in a conical shape Geometry, in a direction adjoining the cylindrical area on the antenna focusing the microwave signal is on the waveguide filling arranged mainly within the cylindrical region of the waveguide jacket. In The waveguide filling has an adapter in its end region directed towards the antenna on, which is called "taper". The taper extends into the expansion area of the waveguide jacket and is usually of approximately conical shape Shape that tapers towards the antenna.

Conventional antenna feeds are constructed in such a way that the transition from Waveguide filling to the taper (i.e. the base of the taper cone) is right there, where the waveguide cladding begins to expand in a funnel shape towards the antenna.

The circumference of the taper base area and the inner circumference there of the waveguide jacket are then the same.

In order to send out a microwave signal, the microwave signal is filled into the waveguide coupled in via an excitation pin and then via the taper of the antenna electrically adjusted.

Experience has shown that despite the electrical adaptation of the microwave signal to the Antenna of transition with undesirable reflections ("ringing"). This works on the one hand adversely affects the transmitted microwave power and others the quality of the measured reflected microwave signal due to this generated device-related "noise". In particular, this will especially Quality of the measurements in the close range due to the relatively short signal propagation times conditional overlay with the "noise" worsened.

It has previously been shown that these undesirable reflections of the microwave signal the greater the difference in dielectric, the stronger Properties between the taping material and the air.

For this reason, attempts have been made to overcome this problem by choosing materials for the taper which, in their dielectric properties, each characterized by their permittivity number (ε _r ), are as similar as possible to the dielectric properties of air (ε _r ≈ 1).

Teflon, for example, has proven to be a suitable material for the taper, its permittivity number (ε _r ≈ 2.3) being close to the permittivity number of air.

However, the materials selected from this aspect are not equally suitable for all practical applications. It would therefore be extremely desirable to have a device which makes it possible to reduce these unwanted reflections, regardless of the taping material used, ie above all when using materials such as ceramics with a permittivity number ε _r that differs significantly from that of air or even to avoid entirely.

WO 98/57392 proposes using a microwave fill level measuring device Horn antenna to attach the antenna in the end area of the waveguide so that forms an annular gap between the waveguide and the antenna, which in operation with a Condensate should be filled. A taper should be arranged at the end of the waveguide that it lies outside the condensate-filled (part of) the annular gap. Since the more or less large filling of the annular gap from the wetting properties and the viscosity of the condensate depends, the arrangement of the tapers is not so clearly firm. In addition, this teaching necessarily requires the accumulation of Condensate in the level meter, i.e. from the liquid material, its level must be measured. Not only is this not always feasible (as with some Liquids no condensation takes place), but also generally undesirable because each Condensation in the measuring device is a malfunction.

The object of the invention is to provide a microwave level measuring device at the outset to create the type mentioned that, regardless of the material, an improved signal quality, especially with reduced "ringing" or noise. In particular is it is an object of the invention to provide a generic level meter that enables improved signal quality regardless of the type of material whose Level is to be measured.

In a completely surprising manner and unexpected for the expert it has been shown that the signal quality can be significantly improved, especially when switching to the antenna's unwanted reflections can be reduced if the geometrical arrangement of waveguide and waveguide filling, in particular in relation to the taper, compared to the conventional design.

To solve the problem is therefore in a generic microwave level meter provided that the waveguide jacket in the plane of the base of The inside of the tape has a larger circumference than the base of the tape or itself in the plane of the base of the taper to such a large extent extends.

The base (and thus the surface) of the taper therefore touches the - of it spaced - waveguide jacket not in which the end region of the waveguide filling with the taper arranged thereon, in the direction of the antenna, freely in one of the waveguide jacket extends into bounded space, or the waveguide jacket encloses the waveguide filling adjacent only to the base of the taper, forms a in its plane Ring shoulder and then extends accordingly from the taper spaced from the radial outward edge of the ring shoulder towards the antenna.

The design according to the invention results in a signal improvement independent of Condensation problems - especially where there is no condensation from Measured material is to be expected on the device.

The presently more preferred embodiment of the invention provides that the waveguide jacket is at a distance from the taper base in the plane of the taper base. This means that the transition from the waveguide filling to the taper, that is to say the taper base area, in contrast to the prior art, does not lie in the area where the waveguide jacket only begins to widen towards the antenna, usually in a funnel shape. Instead, the transition in the axial direction of the taper lies behind the beginning of this widening in the antenna direction.

This embodiment is particularly preferably also used where condensate is formed of the type treated in WO98 / 57392 play no role.

Another currently less preferred embodiment provides that the waveguide jacket has an extension in the plane of the base surface of the taper in the direction of the taper base surface. This means that, in contrast to the prior art, the waveguide jacket does not begin to widen in the shape of a funnel in the direction of the antenna at the circumference of the base area of the taper. Only after the waveguide jacket has a radially outward direction perpendicular to the axial direction of the taper does the waveguide jacket begin to run towards the antenna again and possibly widen in a funnel shape.

This embodiment can e.g. used instead of that described in WO98 / 57392 to avoid condensate formation or to render it harmless.

The invention will be further explained in the following two embodiments. (Here, similar device elements are given analog reference numerals.)

1 schematically shows an embodiment of the transmitting / receiving device according to the invention of a microwave level meter. The transceiver is composed of antenna feed (10) and antenna (16). The antenna feed consists of a waveguide jacket (11) and a waveguide filling (12) the adapter formed as a taper (13). The taper (13) tapers conically. It is connected to the waveguide filling (12) via its base area (14). How from Fig. 1 can be seen, the base (14) of the taper (13) from the area (15), in where the waveguide jacket (11) begins to expand in a funnel shape, towards the antenna offset in the axial direction of the taper (13).

Fig. 2 shows schematically another embodiment of the invention Transmitting / receiving device of a microwave level measuring device. Here, the Waveguide jacket (21) on the base (24) of the taper (23) in the plane of Base area (24) of the taper (23) lying ring shoulder (27) on the area (25) in that the waveguide jacket (21) begins to expand in a funnel shape is, accordingly perpendicular to the longitudinal axis of the taper, offset radially outwards.

Claims (4)

Microwave fill level measuring device with a microwave transmission and reception device, which comprises an antenna and an antenna feed with a waveguide, which has a waveguide filling surrounded by a waveguide jacket, the (end) region of the waveguide sensor directed towards the antenna with a particularly approximately conical adapter ( Taper) is equipped with a base surface that is essentially perpendicular to the longitudinal axis of the waveguide filling and taper, in particular circularly limited,
characterized in that the waveguide jacket (11, 21) in the plane of the base surface (14) of the taper (13) has a larger circumference on the inside than the base surface (14) of the taper (13) or in the plane of the base surface (14) the taper (13) extends to such a large extent. Microwave level measuring device according to claim 1,
characterized in that , in the axial direction of the waveguide, the waveguide jacket (11) widens in the area of the base area (14) of the taper (13) in the direction of the antenna, in particular has an approximately conical jacket-shaped inner surface. Microwave level measuring device according to claim 1 and 2,
characterized in that the waveguide filling (12) consists of ceramic. Use of a microwave level measuring device according to one of the Claims 1 to 3 to improve the signal quality regardless of condensation on the device.

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